function r = mvnrnd(mu,sigma,cases);

% modified matlab code, lets almost singular matricies, that may be
% generated at some draws, go through

%MVNRND Random matrices from the multivariate normal distribution.
%   R = MVNRND(MU,SIGMA,CASES) returns a matrix of random numbers chosen   
%   from the multivariate normal distribution with mean vector, MU, and 
%   covariance matrix, SIGMA. CASES is the number of rows in R.
%
%   SIGMA is a symmetric positive semi-definite matrix with size equal
%   to the length of MU.

%   B.A. Jones 6-30-94
%   Copyright 1993-2000 The MathWorks, Inc. 
%   $Revision: 2.9 $  $Date: 2000/06/02 16:54:14 $


[m1 n1] = size(mu);
c = max([m1 n1]);
if m1 .* n1 ~= c %#ok<BDSCA>
   error('Mu must be a vector.');
end

[m n] = size(sigma);
if m ~= n
   error('Sigma must be square');
end

if m ~= c
   error('The length of mu must equal the number of rows in sigma.');
end

[T p] = chol(sigma);
if p > 0
   % The input covariance has some type of perfect correlation.
   % If it is positive semi-definite, we can still proceed.
   % Find a factor T that has the property    sigma == T' * T.
   % Unlike a Cholesky factor, this T is not necessarily triangular
   % or even square.
   T = mvnfactor(sigma);
   %if p > 0, error('Sigma must be a non-negative definite matrix.'); end
end

if m1 == c
  mu = mu';
end

mu = mu(ones(cases,1),:);

r = randn(cases,size(T,1)) * T + mu;

%---------------------------------------
function T = mvnfactor(sigma)     % originally [T,p] = 
%MVNFACTOR  Do Cholesky-like decomposition, allowing zero eigenvalues
%   SIGMA must be symmetric.  In general T is not square or triangular.

[U,D] = eig((sigma+sigma')/2);
D = diag(D);

tol = max(D) * length(D) * eps;
t = (D > tol);
D = D(t);
T = diag(sqrt(D)) * U(:,t)';